光学仪器, 2020, 42 (2): 75, 网络出版: 2020-05-27
光学互相关测速系统设计与验证 下载: 534次
Design and experimental validation of velocity measurement system based on optical cross correlation method
在线测量 相关测速法 光学互相关法 两相流 测量误差 online measurement correlation velocity measurement method optical cross correlation method two phase flow measurement error
摘要
针对两相流颗粒运动速度测量及基于互相关原理设计了双光路激光测速系统。采用搭建的变频电机带动绕丝产生已知旋转线速度的装置开展光学互相关测速验证实验。通过测量绕丝经双光路激光的光强衰减信号,再对两路信号进行互相关分析,从而得到测点绕丝旋转线速度。以电机转速计算的测点绕丝线速度作为参考值进行测量精度验证,得到光学互相关测速方法的测量相对误差在6%以内,验证了光学互相关测速方法的准确性。
Abstract
Aiming at the measurement of the moving velocity of two-phase flow particles, a dual-path laser velocimetry experimental system was designed based on the principle of cross correlation, and an optical cross correlation velocimetry experiment was carried out by using a known rotating linear velocity device driven by a variable frequency motor. By measuring the intensity signal of the dual-path lasers around the rotating wire, rotation line velocity of wire at the measured point was calculated by the cross correlation analysis of the two intensity signals of the dual-path lasers. Compared with the calculated line velocities of wire at the measured point by using the rotate speed of motor, the relative deviations were less than 6%, verifying the accuracy of optical mutual light velocimetry.
施智雄, 潘科玮, 杨逸璠, 杨斌, 王占平, 刘津良. 光学互相关测速系统设计与验证[J]. 光学仪器, 2020, 42(2): 75. Zhixiong SHI, Kewei PAN, Yifan YANG, Bin YANG, Zhanping WANG, Jinliang LIU. Design and experimental validation of velocity measurement system based on optical cross correlation method[J]. Optical Instruments, 2020, 42(2): 75.